Camera exterior part and camera with lens barrier

ABSTRACT

In a camera exterior part according to the present invention, a front mold member having in one piece a reinforcing portion for preventing deformation is formed using a resin by injection molding. The front mold member is fixed to the inner surface of a front cover made of a metal by adhesion. After the fixing, the reinforcing portion is cut and removed from the front mold member. According to the present invention, high-accurate assembly can be easily realized with a simple arrangement.

CROSS REFERENCE TO RELATED APPLICATIONS

[0001] This application claims benefit of Japanese Application No. 2002-106888 filed in Japan on Apr. 9, 2002, No. 2002-119307 filed in Japan on Apr. 22, 2002, No. 2002-106900 filed in Japan on Apr. 9, 2002, and No. 2002-169004 filed in Japan on Jun. 10, 2002, the contents of which are incorporated by this reference.

BACKGROUND OF THE INVENTION

[0002] 1. FIELD OF THE INVENTION

[0003] The present invention relates to a camera exterior part comprising an exterior member made of a metal and an inner frame member made of a resin, the inner frame member being arranged on the inner surface of the exterior member, a manufacturing method thereof; and a camera having an exterior member made of a conductive material such as a metal, and more particularly to a camera in which electric noises can be supplied to a ground pattern of an electric circuit, the noises coming from the outside through the internal mechanism of the camera; and a camera with a lens barrier which is movably arranged on the front surface of a camera body case and functions as a cover of a photographic lens.

[0004] 2. RELATED ART STATEMENT

[0005] Recently, some camera exterior parts each constituting a camera are constructed in such a manner that an exterior member of a camera body, for example, a front cover is made of a metal to add a high quality impression to the camera.

[0006] The camera exterior part having the above exterior member made of a metal is manufactured as follows: A front mold member, which serves as an inner frame member and is made of a resin, is attached to the inner surface of a front cover of the camera exterior part by adhesion, and a device arranged in the camera or a rear cover of the exterior member is attached to the front mold member. The front cover is formed using a press work technique. The front mold member is formed using a resin by an injection molding technique.

[0007] Recent Recently some cameras are constructed in such a manner that a camera body is covered with an exterior member made of a metal in order to give the impression that the camera has a good appearance and makes a high grade impression on the users. In the case of using a metal as the exterior member, in order to prevent a short circuit between the exterior member and circuit parts or a circuit pattern arranged on a flexible board of the camera body, a part or the whole of the inner surface of the exterior member is subjected to an insulating process or an insulating sheet is adhered to the inner surface thereof.

[0008] For the above-mentioned cameras, since the exterior member has conductivity, the camera is charged (or discharged) due to static electricity. In addition, the exterior member functions as an antenna, so that the camera is apt to pick up noises from surroundings. In some cases, the noises cause a current, resulting in adverse effects on electric parts in the camera. Therefore, the exterior member is electrically connected to a ground pattern of an electric circuit of the camera so that the potential of the exterior member is reduced to a ground potential. If the camera picks up noises, a generated current flows through the ground pattern. Thus, the electric parts can be protected.

[0009] As a grounding method, for example, one end of a piece of elastic metal is fixed by a screw or the like to a camera body together with a lead wire. The lead wire is connected to the ground pattern of the electric circuit of the camera by soldering. When the exterior member is attached to the camera body, the other end of the metal piece is come comes into contact with the exposed inner metal surface of the exterior member while being pressed against the surface, thus resulting in an electrical connection.

[0010] According to another method, a part of the inner metal surface of the exterior member is exposed and processed such that the exposed portion is partially superimposed on the ground pattern of a printed board of the camera body when the exterior member is attached to the camera body. Upon attachment, the superimposed portion and pattern are tightly fixed using screws, thus grounding the exterior member.

[0011] Further, Japanese Unexamined Patent Application Publication No. 11-15054 discloses a technique of realizing electrical connection between an exterior member and a contact on the negative electrode of a battery through a fixing member.

[0012] In conventional general cameras, a photographic lens, a finder, and various measurement windows are arranged on the front surface of each camera body. A lens barrier is freely slidably disposed on the front surface of a camera body case. The lens barrier covers the photographic lens, the finder, and the various measurement windows to protect them. Upon photographing, the lens barrier is slid open, thus exposing the photographing lens, the finder, and the measurement windows.

[0013] As a camera with a lens barrier as mentioned above, for example, as shown in FIGS. 37 and 38, a lens barrier 1 molded using a resin is generally used. In the lens barrier 1 made of resin, almost semicylindrical guide nails rails la are formed in two portions on each of the surfaces of each of the both ends of the lens barrier 1. The guide nails rails la protrude on both the surfaces of each end at a predetermined distance from each other. The guide nails rails la are freely movably attached to a pair of guide rails guides 2 a provided for a front mold member 2, which is made of a resin and constitutes a camera body case. Thus, the lens barrier 1 can be stably guided without being influenced by parallelism between the guide guides rails 2 a and the ends of the lens barrier 1.

[0014] Recent Recently some cameras include a metallic exterior serving as the exterior of a camera body case in order to present a high quality impression. For the cameras using such a metal plate, when a battier barrier-attached camera is formed, it is desired that the lens barrier 1, freely slidably arranged on the front surface of the camera body case, is also formed using a metal plate.

[0015] For conventional barrier-attached cameras, Japanese Unexamined Patent Application Publication No. 1-255839 discloses a camera having the following structure: When a lens barrel is projected, a barrier for protecting a lens is locked through a retaining lever at an open position at the front of a lens in order to prevent the interference between the lens barrel and the barrier. In this camera, the distal end portion of the retaining lever can be in contact with a part of a movable frame of the lens barrel when the lens barrel is projected (projected mode) or while the lens barrel is being projected.

[0016] Japanese Unexamined Patent Application Publication No. 6-294991 discloses a barrier-attached camera. In this barrier-attached camera, a barrier includes a locking mechanism for protecting a lens barrel. The locking mechanism includes a locking member, a contact member, a gear transmission member, and the like. In this camera, in a state in which the lens barrel is located at a projected position where it is possible to photograph, when the barrier is moved in the closing direction, the distal end of the contact member slightly comes into contact with the lens barrel and the locking member comes into contact with a protrusion on a camera body. The locking member is in contact with the camera body, thus protecting the lens barrel against the operating force applied to the barrier.

SUMMARY OF THE INVENTION

[0017] It is an object of the present invention to provide a camera exterior part which simply and easily realizes high highly-accurate assembly with a simple arrangement.

[0018] Another object of the present invention is to provide a camera in which a conductive exterior member can be surely grounded with a simple arrangement.

[0019] Further another object of the present invention is to provide a camera with a lens barrier which simply and easily realizes high-quality manufacture without the need for edge working.

[0020] Still another object of the present invention is to provide a camera with a lens barrier for opening and closing the front surface of a lens barrel, the camera having a simple structure in which the operation of the lens barrier does not affect the projecting or retracting operation of the lens barrel.

[0021] According to one aspect of the present invention, there is provided a method for manufacturing a camera exterior part having an exterior member made of a metal and an inner frame member made of a resin, the inner frame member being integrally attached to the inner surface of the exterior member, the method including the steps of: forming the inner frame member using a resin by injection molding so as to have in one piece a reinforcing portion for preventing deformation; applying an adhesive to the inner surface of the metallic exterior member to fix the inner frame member having the reinforcing portion in one piece to the inner surface of the exterior member; and cutting and removing the reinforcing portion of the inner frame member after the completion of the fixing with the adhesive.

[0022] Further, according to another aspect of the present invention, there is provided a camera exterior part including: an inner frame member which is formed so as to have a reinforcing portion for preventing deformation in one piece and which is formed using a resin by injection molding; and fixing means for applying an adhesive to the inner surface of the exterior member made of a metal, pushing the inner frame member having in one piece the reinforcing portion against the inner surface of the exterior member to integrally fix the inner frame member to the exterior member, wherein after the completion of the fixing by the fixing means, the reinforcing portion of the inner frame member is cut.

[0023] Further, according to another aspect of the present invention, there is provided a camera exterior part including: an exterior member made of a metal; and an inner frame member which is attached to the inner surface of the exterior member by adhesion, which has in one piece a reinforcing portion for preventing deformation, and which is formed using a resin by injection molding, the reinforcing portion being removed after the completion of the attachment.

[0024] Further, according to another aspect of the present invention, there is provided a camera having a lens barrier which is movably disposed at the front of a camera body case made of a metal and which can be moved to a closed position, where the front surface of a photographic lens is covered, and to an open position, where the front surface of the photographic lens is exposed, the camera including: the lens barrier formed by working a metal plate; guide rails which are arranged in the camera body case and are in contact with the lens barrier to slidably guide the lens barrier; and protrusions formed on the surface of the lens barrier in the vicinity of the worked end faces of the lens barrier perpendicular to the surface thereof, the protrusions being in contact with the surfaces of the respective guide rails to facilitate sliding of slide the lens barrier.

[0025] Further, according to another aspect of the present invention, there is provided a camera including: a lens barrier which is movable to a closed position, where the front surface of the photographic lens is covered, and to an open position, where the front surface of the photographic lens is exposed, the lens barrier being formed by working a metal plate and having protrusions on the surface thereof in the vicinity of the worked end faces, the protrusions protruding perpendicular to the surface of the lens barrier; and guide rails to which the protrusions of the lens barrier are slidably fitted in order to slidably guide the lens barrier to the closed position, where the photographic lens is covered, and to the open position, where the front surface of the photographic lens is exposed.

[0026] Further, according to another aspect of the present invention, there is provided a camera including: a printed wiring board including a pattern portion having a ground potential; a conductive spring in which at least one end serves as an end turn; and a conductive member having conductivity at least on the surface which the other end of the spring is pressed against, wherein the spring holds an exposed portion of the pattern portion at the end turn and presses the other end thereof against the conductive member to realize electrical connection, thus reducing the potential of the conductive member to the ground potential.

[0027] Further, according to another aspect of the present invention, there is provided a camera including: a printed wiring board having a pattern portion in which a ground pattern is exposed; a conductive spring in which at least one end is tightly wound; an exterior member made of a metal; and a contact portion which is provided for the exterior member and is come brought into contact with the other end of the spring, wherein the spring holds the pattern portion with the tightly-wound end and the electrical connection between the printed wiring board and the exterior member is realized through the spring.

[0028] Further according to another aspect of the present invention, there is provided a camera including: a photographic lens barrel having a lens movement path between a photographable position and a non-photographable position where it is impossible to photograph; a barrier having a barrier movement path between a closed position, where the barrier covers the photographic lens barrel, and an open position, where the barrier is withdrawn from the front surface of the photographic lens barrel, the barrier movement path intersecting the lens movement path; and a locking member which is provided for a camera body, which is engaged with the barrier to inhibit the movement of the barrier when the barrier is moved from the open position to the closed position in a state in which the photographic lens barrel is located in the barrier movement path of the barrier, and which continues the engagement so that an operating force applied to the barrier in the closing direction does not affect the movement of the photographic lens barrel when the operating force is continuously applied to the barrier even in a state in which the photographic lens barrel is deviated from the barrier movement path of the barrier.

[0029] Other features and advantages of the present invention will be apparent from the following description.

BRIEF DESCRIPTION OF THE DRAWINGS

[0030]FIG. 1 is a perspective view of a camera exterior part according to a first embodiment of the present invention, the view showing the completion of fixing of the camera exterior part during manufacture;

[0031]FIG. 2 is a perspective view showing the completion of the manufacture of the camera exterior part shown in FIG. 1;

[0032]FIG. 3 is an exploded perspective view showing a front cover and a front mold constituting the camera exterior part of FIG. 1, as observed from the rear;

[0033]FIG. 4 is an exploded perspective view showing the front mold and the front mold of the camera exterior part in FIG. 1, as viewed from the front;

[0034]FIG. 5 is a perspective view showing a step of fixing the camera exterior part of FIG. 1;

[0035]FIG. 6 is a sectional view at the line I-I 6-6 of FIG. 1;

[0036]FIG. 7 is a sectional view at the line II-II 7-7 of FIG. 1;

[0037]FIG. 8 is an exploded perspective view of a modification of the camera exterior part according to the first embodiment shown in FIG. 1;

[0038]FIG. 9 is a perspective view of the completely manufactured camera exterior part of FIG. 8;

[0039]FIG. 10 is a view showing an example of the structure of a camera according to a second embodiment of the present invention;

[0040]FIG. 11A is a perspective view showing the structure of a ground portion for grounding an exterior member of the camera of FIG. 10;

[0041]FIG. 11B is a sectional view at the line III-III 11B-11B of FIG. 10, the view showing a state where the ground portion in FIG. 11A is attached to the camera;

[0042]FIG. 12 is a view showing an example of the structure of a ground portion of a camera according to a third embodiment of the present invention;

[0043]FIG. 13 is a perspective view showing the front surface of a camera with a lens barrier according to a fourth embodiment of the present invention;

[0044]FIG. 14 is a sectional view of an essential part of the camera with the lens barrier shown in FIG. 13;

[0045]FIG. 15 is a plan view of one part of the lens barrier in FIG. 13, as observed from the rear;

[0046]FIG. 16 is a sectional view at the line IV-IV 16-16 of FIG. 15;

[0047]FIG. 17 is a partial sectional view of an essential part of a camera with a lens barrier according to a fifth embodiment of the present invention;

[0048]FIG. 18 is a plan view of a part of the lens barrier in FIG. 17, as observed from the rear;

[0049]FIG. 19 is a sectional view at the line V-V 19-19 of FIG. 18;

[0050]FIG. 20 is a sectional view at the line VI-VI 20-20 of FIG. 18;

[0051]FIG. 21 is a partial sectional view of an essential part of a camera with a lens barrier according to a sixth embodiment of the present invention;

[0052]FIG. 22 is a plan view of a part of the lens barrier in FIG. 21, as viewed from the rear;

[0053]FIG. 23 is a perspective view of a camera with a barrier according to a seventh embodiment of the present invention, the barrier being opened;

[0054]FIG. 24 is an exploded perspective view of the camera with the barrier in FIG. 23, the camera being in a photographing mode and the barrier being detached from the camera;

[0055]FIG. 25 is a perspective view of the barrier to be attached to the barrier-attached camera of FIG. 23, as observed from the inner side opposite to the direction DA in FIG. 23;

[0056]FIG. 26 is a front elevation of the barrier-attached camera of FIG. 23, as observed in the direction DA in FIG. 23, the barrier being opened;

[0057]FIG. 27 is a front elevation of the barrier-attached camera of FIG. 23, as observed in the direction DA in FIG. 23, the barrier being in a semi-open mode;

[0058]FIG. 28 is a front elevation of the barrier-attached camera of FIG. 23, as viewed in the direction DA in FIG. 23, the barrier being closed;

[0059]FIG. 29 is an exploded perspective view of a locking member and components surrounding a lens barrel of the barrier-attached camera of FIG. 23;

[0060]FIG. 30 is a sectional view of the barrier-attached camera of FIG. 23 at the line VII-VII 30-30 of FIG. 23, the barrier being closed and the lens barrel being in a collapsed position;

[0061]FIG. 31 is a sectional view of the barrier-attached camera of FIG. 23 at the line VII-VII (31)-(31) of FIG. 23, the barrier being opened and the lens barrel being in a photographing position;

[0062]FIG. 32 is a sectional view of the barrier-attached camera of FIG. 23 at the line VII-VII (32)-(32) of FIG. 23, the barrier being in a semi-open position and the lens barrel being in the photographing position;

[0063]FIG. 33 is a sectional view of the barrier-attached camera of FIG. 23 at the line VII-VII (33)-(33) in FIG. 23, the barrier being in the semi-open position and the lens barrel being retracting;

[0064]FIG. 34 is a sectional view of the barrier-attached camera of FIG. 23 at the line VII-VII (34)-(34) of FIG. 23, the barrier being in the semi-open position and the lens barrel being retracted in the stored position;

[0065]FIG. 35 shows a lens-barrel control unit and primary electrical control circuits of various detection switches of the barrier-attached camera of FIG. 23;

[0066]FIG. 36 is a general flowchart of a photographing process including the lens-barrel control operation interlocked with the opening or closing operation of the barrier in the barrier-attached camera of FIG. 23;

[0067]FIG. 37 is a sectional view of an essential part of a conventional camera with a lens barrier to explain the structure thereof; and

[0068]FIG. 38 is a perspective view of a part of the lens barrier in FIG. 37.

DESCRIPTION OF THE PREFERRED EMBODIMENT EMBODIMENTS

[0069] Embodiments of the present invention will now be described in detail hereinbelow with reference to the drawings.

[0070]FIGS. 1 and 2 show a camera exterior part according to a first embodiment of the present invention. FIG. 1 shows a state during fixing and FIG. 2 shows a state in which manufacture is completed.

[0071] In other words, a front cover 10 serves as an exterior member. The front cover 10 has a lens-frame-unit accommodation hole 101, through which a lens frame unit (not shown) is inserted, a flash accommodation hole 102, an AF-finder-unit accommodation hole 103, and the like on the front surface thereof. The front cover 10 is made of a metal such as aluminum, stainless steel, magnesium, or titanium and is formed by, for example, a press work technique. As shown in FIGS. 3 and 4, a pair of guide holes cut-outs 104 and 105 for barrier attachment is formed at the upper and lower ends of the front cover 10.

[0072] A front mold 11 serving as an inner frame member made of a resin such as polycarbonate or an ABS resin is attached to the inside of the front cover 10. The front mold 11 is formed using the resin by a well-known injection molding technique. Members constituting respective camera functioning units (not shown) are attached to predetermined portions of the front mold 11.

[0073] The front mold 11 integrally has a frame member 111 which is, for example, substantially rectangular in shape and a band-like reinforcing member 112 which is installed substantially cross-shapedly between the side of the frame member 111 and the opposite side thereof. The front surface of the frame member 111 is shaped into a predetermined form corresponding to the inner surface of the front cover 10. A pair of barrier guides 113 and 114 (see FIG. 6) is formed on the upper and lower ends of the frame member 111 so as to correspond to the pair of guide holes cut-outs 104 and 105 of the front cover 10.

[0074] The reinforcing member 112 has folded portions 115, folded backward, in the vicinity of, for example, the respective ends of the reinforcing member 112 in order to prevent the inner frame member from warping or deforming, thus holding the flatness to the initial state. The reinforcing member 112 is formed as a runner for supplying a resin in the formation of, for example, the front mold 11 using a resin by the above-mentioned injection molding technique. Resin supply ports are used as band retaining protrusions 116 constituting fixing means for attachment and fixing.

[0075] The front mold 11 integrally has a fitting groove 118 and a plurality of elastic retaining portions 119 on the rear thereof. Accordingly, in the front mold 11, a fitting portion of a rear cover (not shown) is fitted into the fitting groove 118 and the elastic retaining portions 119 are fitted into a retained portion of the rear cover (not shown) with its elasticity. Further, the front mold 11 is attached to the rear cover (not shown) using attachment screws (not shown) which are screwed into hollow posts 117 integrated with the front mold 11. The rear cover (not shown), the front cover 10, and the front mold 11 constitute an exterior assembly covering the above camera body (not shown).

[0076] A method for manufacturing the camera exterior part which is composed of the front cover 10 and the front mold 11 as mentioned above will now be described.

[0077] First, for example, a press work technique is used in a cover manufacturing step. A plate-shaped metal is press worked into a desired shape, thus forming the front cover 10. In a mold manufacturing step, the front mold 11 is formed using a resin by the injection molding technique so as to have in a unified piece the frame member 111, the reinforcing member 112, the barrier guides 113 and 114, the posts 117 for receiving attachment screws 117, the fitting groove 118, and the elastic retaining portions 119. The reinforcing member 112 prevents the front mold 11 formed using the resin from warping or deforming after the formation, thus retaining the flatness of the formation.

[0078] Subsequently, in a fixing step, an adhesive is applied to the inner surface of the front cover 10. Then, the outer surface of the front mold 11 is come brought into contact with the inner surface of the front cover 10. Thus, the front mold 11 is attached to the inside of the front cover 10. In this state, band members 12 are wound around the front cover 10 and the front mold 11 as shown in, for example, FIG. 5. The ends of the band members 12 are retained by the respective band retaining protrusions 116 of the reinforcing member 112 of the front mold 11. In this instance, the front cover 10 and the front mold 11 are left as they are connected with pressure by the band members 12 until the adhesive cures. Upon curing of the adhesive, the reinforcing member 112 prevents the front mold 11 from warping or deforming to maintain the initial flatness.

[0079] Then, the adhesive cures to fix the front mold 11 to the front cover 10. In this state, the band members 12 are first detached from the band retaining protrusions 116 of the reinforcing member 112. As shown in FIG. 1, the front mold 11 integrated with the reinforcing member 112 is fixed to the inner surface of the front cover 10 by adhesion.

[0080] As shown in FIGS. 6 and 7, the reinforcing member 112 protrude protrudes backward in the front mold 11. For instance, in a step of attaching the front mold 11 to the camera body (not shown), the reinforcing member 112 is cut using a cutting tool such as a nipper and is then removed from the front mold 11. leaving the front mold and camera body as shown in FIG. 2.

[0081] After that, the camera body (not shown) and the rear cover (not shown) are attached to the rear of the part composed of the front cover 10 and the front mold 11. A barrier (not shown) is disposed at the front surface of the front cover 10 so that both the ends of the barrier are freely slidably fitted to the barrier guides 113 and 114 of the front mold 11 through the guide holes cut-outs 104 and 105, respectively. The barrier (not shown) is guided through the guide rails 113 and 114 of the front mold 11 and is moved between a closed position, where the barrier covers the foregoing lens frame unit (not shown) inserted through the lens-frame-unit accommodation hole 101 on the front surface of the front cover 10, and a photographing position where the lens frame unit (not shown) is exposed so that it is possible to photograph.

[0082] As mentioned above, the camera exterior part is constructed in such a manner that the front mold 11 integrated with the reinforcing member 112 for preventing the deformation is injection-molded using a resin, the front mold 11 is fixed to the inner surface of the front cover 10 made of a metal by adhesion, and after the fixing, the reinforcing member 112 is cut and removed from the front mold 11.

[0083] According to this, with the front mold 11 being restrained from warping or deforming by the reinforcing member 112, the front mold 11 is adhered to the front cover 10. Thus, stable fixing is realized with high accuracy. After the fixing, the reinforcing member 112 is cut and removed. Therefore, a strong arrangement for fixing and reinforcement is realized without restricting the structure of the exterior part. Consequently, high-quality assembly of the front mold 11 and the front cover 10 is realized, resulting in the simple and easy assembly of the exterior part with high accuracy.

[0084] According to the method for manufacturing the camera exterior part, the front mold 12 integrated with the reinforcing member 112 for preventing the deformation is injection-molded using a resin, the front mold 11 is fixed to the inner surface of the front cover 10 made of a metal by adhesion, and after the fixing, the reinforcing member 112 is cut and removed from the front mold 11.

[0085] According to this, the reinforcing member 112 restrains the front mold 11 from warping or deforming. In the fixing step, with the desired flatness being retained until the adhesive cures, the front mold 11 is adhered to the front cover 10, thus realizing stable fixing with high accuracy. Since the reinforcing member 112 is cut and removed after the fixing, the strong arrangement for fixing and reinforcement can be realized without restricting the structure of the exterior part. Consequently, high-quality assembly of the front mold 11 and the front cover 10 is realized, resulting in the simple and easy assembly of the exterior part with high accuracy.

[0086] The above-mentioned embodiment has been described with a case where the reinforcing member 112 is realized using the runner upon injection molding. The structure is not limited to this. In addition to this, the frame member 111 may also be integrated with the reinforcing member 112 which is another thing obtained from the runner.

[0087] The present invention is not limited to the above embodiment. According to a modification of the first embodiment, a front mold 13 can be formed in a shape as shown in FIGS. 8 and 9 using a resin. In FIGS. 8 and 9, the same components as those in FIGS. 1 to 7 are designated by the same reference numerals to omit the detailed description.

[0088] According to the modification in FIGS. 8 and 9, the front mold 13 has a reinforcing member 131 in formed as one piece with the front mold 13 so as to close the front surface of the metallic front cover 10. The front mold 13 will be attached and fixed to the substantially curved front surface of the front cover 10. A plurality of holes 132 such as perforations are punched at regular intervals around the reinforcing member 131 of the front mold 13.

[0089] The reinforcing member 131 is formed so as to close the lens-frame-unit accommodation hole 101 of the front cover 10 in a state in which the front mold 13 is attached to the inside of the front cover 10.

[0090] In the above arrangement, the front mold 13 is formed so as to have in one piece the reinforcing member 131 to be cut and the perforations 132 using a resin by the well-known injection molding technique whereby these members are contiguously integrated. Since the front mold 13 formed using the resin is integrated with the reinforcing member 131, the operation of the reinforcing member restrains the front mold 13 from warping or deforming to retain desired flatness.

[0091] In a fixing step, an adhesive is first applied to the periphery (corresponding to a portion excluding the reinforcing member 131 of the front mold 13) of the inner surface of the front cover 10 and the outer surface of the front mold 13 is come into contact with the inner surface of the front cover 10. Thus, the front mold 13 is attached to the front cover 10.

[0092] In this state, the foregoing band members 12 (refer to FIG. 5 because they are not shown in FIGS. 8 and 9 in views of circumstances of the drawings) are wound around the front cover 10 and the front mold 13 and are left until the adhesive cures. Upon curing of the adhesive, the reinforcing member 131 prevents the front mold 13 from warping or deforming, thus retaining the initial flatness.

[0093] After that, in this state in which the adhesive cures to fix the front cover 10 to the front mold 13, the band members 12 are first detached and removed. In this instance, a shock is given in the direction from the front surface to backward of the reinforcing member 131 through the lens-frame-unit accommodation hole 101 of the front cover 10. Thus, the reinforcing member 131 is cut along the perforations 132 and is removed from the front surface of the front mold 13. Accordingly, the lens-frame-unit accommodation hole 101 of the front cover 10 is exposed at the rear of the front mold 13, thus preparing for the attachment to the camera body (not shown) as mentioned above.

[0094] The above-mentioned modification in FIGS. 8 and 9 has been described with a case where the front mold 13 is formed with the reinforcing member 131 surrounded by the perforations 132 formed at regular intervals and the reinforcing member 131 is cut and removed along the perforations 132. The arrangement is not limited to this case. Instead of the perforations, reinforcing ribs are arranged at predetermined intervals around the reinforcing member. The reinforcing member can also be cut and removed from the front mold so as to be punched using the reinforcing ribs.

[0095] Further, the above-mentioned embodiment and modification have been described with the case where the exterior part is applied to the front cover. The present invention is not limited to this case. The exterior part can also be applied to the rear cover. Similar advantages are expected.

[0096] The foregoing embodiment and modification have been described with the case where the front cover 10 is formed by press work. Working is not limited to this case. The front cover may be formed using various working techniques such as injection molding and the like.

[0097] Accordingly, the present invention is not limited to the above-mentioned embodiment and modification. In addition, other various modifications are possible without departing from the spirit of the invention in embodying stages. Further, since the foregoing embodiment and modification include various stages of the invention, various inventions may be obtained by the appropriate combinations of disclosed components.

[0098] For example, if some components are eliminated from all the components disclosed in the embodiment and the modification, the arrangement excluding the eliminated components may be included in the present invention so long as the disadvantages, described in the paragraph regarding the problems that the present invention is to solve, can be overcome and advantages, which will be described in a paragraph regarding advantages of the invention, are obtained.

[0099] As described above in detail, according to the first embodiment and the modification thereof, the camera exterior part which can simply and easily realize high-17 accurate assembly with a simple construction and the method for manufacturing the same can be provided.

[0100]FIG. 10 shows an example of the structure of a camera according to a second embodiment of the present invention.

[0101] This camera is constructed in such a manner that the front of a camera body 201 is covered with an exterior member 202.

[0102] The whole of the exterior member 202 is made of a conductive material such as metal. Aluminum is anodized or an insulating sheet is adhered to the inner surface of the exterior member 202 in order to prevent a short circuit in circuit parts or a circuit pattern mounted on a flexible board (printed wiring board) of the camera body. Thus, the inner surface of the exterior member 202 exhibits insulating properties. According to the present embodiment, the exterior member 202 is shaped into a box covering the front surface (the side of the photographic lens), the upper and lower surfaces, and both the side surfaces of a camera, except for the rear surface (the side of a rear cover). A photographic-lens opening 203 through which a lens barrel is inserted, a finder window 204, a distance-measuring and photometric window 205, and a flash window 206 are formed in the exterior member 202. A release button 207 is arranged on the upper surface of the exterior member 202. It is a matter of course that the exterior member 202 is not limited to the box type. Other windows may be formed as necessary.

[0103] In the camera body 201, the following are arranged: a lens barrel 208 at the center of the front surface thereof, spool chamber 210 including a spool shaft 209 for taking up a film on the right as viewed from the front of the camera, and cartridge chamber (not shown) for loading a film cartridge on the left as viewed in the same manner. A finder and distance-measuring and photometric unit 211 are disposed in the upper portion of the camera body. A main flexible board 212 is disposed above the unit 211 so as to cover the left of the front surface of the camera body. The main flexible board 212 includes an electric circuit for controlling various components of the camera and performing the arithmetic operation. The front surface of the main flexible board 212 is doubly folded up along a side adjacent to the lens barrel 208. A main control unit (CPU) 213 for performing controls and computations and an interface IC (IFIC) 214 for transmitting and receiving signals to/from the respective components are arranged in the doubly folded up portion of the board 212. A V-shaped notch 212 a through which a ground spring is attached is formed at the upper end of the front surface of the main flexible board 212. The notch 212 a includes a ground portion in which a ground spring 215 is inserted.

[0104]FIG. 11A is a perspective view of the structure of the ground portion for grounding the exterior member. FIG. 11B is a sectional view at the line III-III 11B-11B of FIG. 10 and shows the state details of the ground portion attached to the camera.

[0105] The V-shaped notch 212 a is formed at the upper end of the front surface of the main flexible board 212. The notch 212 a functions to restrict the movement of the spring 215 in the direction X shown in FIG. 11A. The side portions of the notch restrict the movement of the spring 215. Accordingly, the shape is not limited to the shape of a letter V. A U-shaped notch, a semicircular notch, or a rectangular notch can be used. The shape of the notch is appropriately set depending on the depth of cut and the designing conditions of the camera. In other words, although the spring 215 has to be positioned within a range where the spring 215 is in contact with a ground pattern 212 b, it is unnecessary to accurately position the spring 215. Accordingly, in consideration of the size of the ground pattern 212 b, the shape of the notch can be appropriately changed such that even when the spring 215 moves, the spring 215 can maintain contact with the ground pattern 212 b.

[0106] The circular ground pattern 212 b is formed on the main flexible board 212 so as to overlap partially the lower portion of the notch 212 a. A positioning hole 212 c is formed on the ground pattern 212 b or in the vicinity thereof. An insulation coating on the surface of the ground pattern 212 b is eliminated and the surface of the ground pattern 212 b is exposed.

[0107] As shown in FIG. 11B, the ground spring 215 is, for example, a conical coil spring that is conical in shape. The spring 215 is wound so that when the spring 215 is compressed, respective winding segments do not overlap with each other. One end 215 a of an end turn 215 c on the bottom of the conical spring is folded and inserted into the positioning hole 212 c of the notch 212 a formed on the main flexible board 212.

[0108] When the spring 215 is inserted to the notch 212 a, the end 215 a is inserted into the positioning hole 212 c, thus positioning the spring 215. The end turn 215 c elastically holds the ground pattern 212 b which is on the main flexible board 212, thus accomplishing the electrical connection between the spring 215 and the ground pattern 212 b. In this instance, if the end 215 a is merely inserted into the positioning hole 212 c, the spring 215 may rotate around the end 215 a. However, since the above-mentioned notch 212 a restricts the movement of the spring 215 in the direction X, the spring 215 is not deviated from the ground pattern 212 b.

[0109] The end turn 215 c is formed by tightly winding. Accordingly, only the insertion of the end turn 215 c of the spring 215 allows the end turn 215 c to elastically hold the ground pattern 212 b, resulting in a simple assembly. On the other hand, in the exterior member 202, a portion of an insulating sheet 216 is eliminated in a position opposite to the spring 215. A conductive portion 202 a serving as the metallic surface of the exterior member 202 is thus exposed.

[0110] Therefore, when the exterior member 202 is attached to the camera body 201, the spring 215 is compressed as shown in solid-line fashion in FIG. 11B. An upper (i.e. narrow end) portion 215 b of the spring 215 comes into contact with the conductive portion 202 a on the inner surface of the exterior member 202 due to with pressure of the spring 215, resulting in the electrical connection between the exterior member 202 and the ground pattern in the main flexible board 212. In the conducting state, the potential of the exterior member 202 is decreased maintained at the potential of the ground pattern, namely, the ground potential.

[0111] As mentioned above, according to the present embodiment, the camera exterior member made of a conductive material is attached to the camera body, resulting in the electrical connection between the exterior member and the ground pattern of the printed wiring board of the camera body through the conductive coil spring. Consequently, a current caused by noises surrounding the camera or charges caused by static electricity can be supplied from the exterior member to the ground pattern of the electric circuit, thus preventing adverse effects on electric parts of the camera.

[0112] A third embodiment of the present invention will now be described.

[0113]FIG. 12 shows an example of the structure of a ground portion according to the third embodiment. According to the third embodiment, the ground portion differs from that of the foregoing second embodiment. Since the other components are the same as those of the second embodiment, the description regarding the common components is omitted.

[0114] According to the foregoing second embodiment, the positioning hole 212 c is formed on the ground pattern 212 b or in the vicinity thereof in the main flexible board 212. According to the present embodiment, in order to increase the area of the ground pattern 212 b, the ground pattern 212 b is formed such that the lower portion (bottom) of the notch 212 a substantially serves as the center of the pattern. Except that the end 215 a of the spring 215 is not folded, the same spring 215 as that of the second embodiment is used. The spring 215 is arranged in the fold of the main flexible board 212 and the end turn 215 c is inserted to the lower portion of the notch 212 a.

[0115] According to the third embodiment, the ground pattern 212 b is formed in a range where the position of the spring 215 is restricted due to the notch 212 a formed in the main flexible board 212. Accordingly, it is unnecessary to arrange the end turn 215 c by folding the spring 215. Thus, the shape of the part can be simplified and the assembly is easily accomplished.

[0116] The foregoing second and third embodiments have been described with the case where the whole of the entire exterior member is made of an electric conductor such as metal. The exterior member is not limited to this case. An exterior part having the following structure can also be used: A metal plate is drawn to form a metallic cover serving as a part or the whole of the exterior of a camera and a cover made of a resin by molding is then integrally fixed to the inner surface of the cover. Protrusions and attachment portions such as tapped holes for attaching various operating members of the camera body are formed on the inner surface of the resin cover. When the exterior part is attached to the camera body, a portion of the resin cover which is in contact with the upper portion 215 b of the coil spring 215 is eliminated, thus exposing the metal surface.

[0117] Further, according to the present embodiment, the conical spring is used for the electrical connection between the exterior member and the ground pattern. In addition to this, a cylindrical coil spring (including tight winding) or a thin plate spring can also be used so long as the spring is formed so as to elastically hold the ground pattern by a tightly wound portion thereof. Means for electrical connection is not limited to the spring. For example, a metal clip having such a shape such that one end thereof is folded can also be used.

[0118] According to the above-mentioned second and third embodiments, the ground portion is arranged on the front surface of the camera. The position is not limited to this case. The ground portion can also be arranged on the main flexible board on the upper surface of the camera. When the ground portion is so arranged, an operation switch provided for the exterior member can be used. In addition, the ground portion can also be arranged in the vicinity of an operation switch provided for the camera body or an opening for the lens barrel. For instance, if a release button (release switch) provided for the upper surface of the exterior member is cylindrical, a cylindrical coil spring is fitted to about the periphery of the release button. On the main flexible board, a ground pattern is formed in a portion in the vicinity of the arrangement of the release button so that the pattern is in contact with the end of the cylindrical coil spring when the exterior member is attached to the camera body. Thus, the similar advantages similar to as those of the above embodiments can be derived.

[0119] According to the foregoing second and third embodiments, the notch and the positioning hole are formed to restrict the position of the spring 215. In order to eliminate these components to simplify the shape of the part, an adhesive tape can be used to fix the spring. Alternatively, the force of the spring can be increased, thus preventing the movement of the spring.

[0120] As described above in detail, the second and third embodiments of the present invention can provide a camera in which a predetermined conductive exterior member can surely be grounded with a simple arrangement without increasing the number of components.

[0121]FIG. 13 shows an essential part of a camera with a lens barrier according to a fourth embodiment of the present invention. In the camera with the lens barrier, a front cover 330 on the front surface of the camera constitutes a camera body case. The front cover 330 is formed using a metal plate made of aluminum, stainless steel, magnesium, or titanium and is formed by, for example, the press work technique. A front mold member (hereinbelow, referred to as a front mold) 331, which is a frame made of a resin, is adhered and attached to a predetermined position of the inner surface of the front cover 330.

[0122] A lens-frame-unit accommodation hole 301 through which a photographic lens is arranged is formed at the center of the front surface of the front cover 330. An AF-finder-unit accommodation hole 302 and a flash-unit accommodation hole 303 are formed side by side above the lens-frame-unit accommodation hole 301. Further, a through hole slot 304 and a notch 305, which function as a pair of guide rails, are formed so as to have a predetermined length in the directions shown by arrows SA and SB (the directions of movement) at the upper portion and the lower edge of the front surface of the front cover 330.

[0123] On the other hand Alternatively, a pair of rails 311 (the lower rail is not shown in views of circumstances of the drawing) are separately formed in substantially in parallel to each other on the upper and lower portions of the front surface of the front mold 331. When the front mold 331 is attached to the inner surface of the front cover 330, these rails 311 are accommodated and arranged in the through hole slot 304 and the notch 305 of the front cover 330.

[0124] Elastic retaining nails 313 and fitting recesses 314 (refer to FIG. 14 2) are formed on the rear of the front mold 331. Each fitting recess 314 is fitted to the corresponding fitting protrusion of a rear cover (not shown) which covers the rear of the camera and serves as the camera body case. The elastic engaging nails 313 are elastically engaged with respective predetermined portions of the rear cover (not shown). Accordingly, the front mold 331 is attached to the rear cover (not shown) while holding the camera body (not shown) therein, the front mold 331 being detachable therefrom.

[0125] A lens barrier 332 is freely slidably arranged at the front surface of the front cover 330 in the directions shown by the arrows SA and SB so as to cover the lens-frame-unit accommodation hole 301. The lens barrier 332 is formed using a metal plate made of aluminum, stainless steel, magnesium, or titanium by, for example, the press work technique.

[0126] A closing portion 321 is formed at substantially the center of the lens barrier 332 so as to close the lens-frame-unit accommodation hole 301 and the AF-finder-unit accommodation hole 302 of the front cover 330. A pair of folded sliding portions 322 is formed on the upper and lower edges of the closing portion 321 so that the portions 322 can be received in the pair of rails 311 of the front mold 331.

[0127] Each sliding portion 322 has a plurality of, e.g., two protrusions 324 which are almost hemispherical as shown in FIGS. 14 and 16. The protrusions 324 project in the vicinity of the end face of each sliding portion 322 perpendicular to the surface of the sliding portion 322. The protrusions 324 are formed so as to be higher than a burr 333 and so as to correspond to the direction of generation of the burr 333, which may occur at the edge of the lens barrier 332 when the lens barrier 332 is cut in the press work step. In addition, round curved projections 325 (see FIG. 15) are formed on the end face of each sliding portion 322 of the lens barrier 332 so as to correspond to the protrusions 324. The round curved projections 325 are freely movably come into contact with the bottom surface of the corresponding rail 311.

[0128] When the lens barrier 332 is moved in the direction shown by the arrow SA or SB, various switches such as a power switch and similar components (not shown) which are arranged on, for example, the front cover 330, are turned on or off at a position to which the lens barrier 332 is moved. At an open position where the lens-frame-unit accommodation hole 301 and the AF-finder-unit accommodation hole 302 of the front cover 330 are exposed to expose the surface of a photographic lens (not shown), a camera function is allowed to enter a photographing standby mode. At a closed position, a power supply is turned off.

[0129] In the above arrangement, the front mold 331 is attached to the inner surface of the front cover 330 in such a manner that the through hole 304 and the notch 305 are made to correspond to the respective rails 311 of the front mold 331 and they are adhered to each other using an adhesive.

[0130] In this state, for example, the sliding portion 322 on the upper portion of the lens barrier 332 is inserted into the through hole slot 304 of the front cover 330 and is then freely movably received in the rail 311 on the upper portion of the front mold 331. Subsequently, the sliding portion 322 on the lower portion of the lens barrier 332 is inserted through the notch 305 of the front cover 330 and is then freely movably received in the rail 311 on the lower portion of the front mold 331.

[0131] In this instance, the protrusions 323 of the upper and lower sliding portions 322 of the lens barrier 332 are come brought into contact with the sliding surfaces of the side walls of the respective rails 311 of the front mold 331. Simultaneously, the round projections 325 are come brought into contact with the respective bottom surfaces of the rails 311. Consequently, while the burr 333 formed at the edge of each sliding portion 322 is prevented from being in contact with the sliding surface as the side wall of the rail 311, the lens barrier 332 is freely movably attached to the front surface of the front cover 330 in the directions shown by the arrows SA or SB.

[0132] When the lens barrier 332 is moved in the direction shown by the arrow SA, the round curved projections 325 of the respective sliding portions 322 are guided by the bottom surfaces of the rails 311 of the front mold 331 and the projections 324 are guided by the sliding surfaces as the side walls of the rails 311 of the front mold 331. Consequently, the lens barrier 332 is moved to the closed position where the lens-frame-unit accommodation hole 301 and the AF-finder-unit accommodation hole 302 of the front cover 330 are covered. In this instance, the front surface of the photographic lens (not shown) disposed through the lens-barrel-unit accommodation hole 301 is covered with the closing portion 321 of the lens barrier 332.

[0133] When the lens barrier 332 is moved from the closed position in the direction shown by the arrow SB, similarly, the round curved projections 325 of the respective sliding portions 322 are guided to the bottom surfaces of the rails 311 of the front mold 331 and the respective projections 324 are guided to the sliding surfaces of the rails 311 of the front mold 331. Consequently, the lens barrier 332 is moved to the open position where the lens-barrel-unit accommodation hole 301 and the AF-finder-unit accommodation hole 302 of the front cover 330 are exposed. In this instance, the front surface of the photographic lens (not shown) disposed through the lens-barrel-unit accommodation hole 301 is exposed. Thus, it is in a photographable mode.

[0134] As mentioned above, the camera with the lens barrier is constructed as follows: The protrusions 324 are formed in the vicinity of the end face of each sliding portion 322 of the lens barrier 332, which is made of a metal plate and is freely movably attached to the front surface of the front cover 330 between the closed position where the front surface of the photographic lens is covered and the open position where the front surface of the photographic lens is exposed, the protrusions 324 projecting higher outwardly further than the burr 333 formed at the edge perpendicular to the surface of the lens barrier 332. When the lens barrier 332 is moved on along the rails 311, the protrusions 324 of the sliding portions 322 are moved in contact with the sliding surfaces of the respective rails 311 of the front mold 331.

[0135] Accordingly, when the lens barrier 332 is slid along rails 311, the protrusions 324 are guided and slid while being in contact with the surfaces of the rails 311. Thus, the edges of the end faces of the lens barrier 332 are not in contact with the surfaces of the rails 311 and the lens barrier 332 is moved. Therefore, in the manufacture of the lens barrier 332 using a metal plate, the edges of the end faces of the sliding portions 322 formed on the upper and lower ends of the lens barrier 332 need not to be especially worked. The stable moving operation can be accomplished and the simple manufacture can be realized.

[0136] The present invention is not limited to the above embodiments. In addition to this, an arrangement as shown in FIGS. 17 to 20 and an arrangement as shown in FIGS. 21 and 22 are possible. In FIGS. 17 to 22, the same components as those in FIGS. 13 to 16 are designated using the same reference numerals to omit the detailed description regarding the components.

[0137] In other words, according to a fifth embodiment shown in FIGS. 17 to 20, on each of both the surfaces of each of the upper and lower sliding portions 322 of the lens barrier 332, two first protrusions 340 and two second protrusions 341 protruding in opposite directions (only the upper portion is shown in views of circumstances of the drawings) are formed at predetermined intervals. Accordingly, when the lens barrier 332 is moved on the rails 311 of the front mold 331, the first and second protrusions 340 and 341 can prevent the burrs generated upon forming the lens barrier 332 and the edges of the sliding portions 322 from being in contact with the inner walls of the rails 311.

[0138] According to a sixth embodiment shown in FIGS. 21 and 22, substantially hemispherical protrusions 342, made of a resin, are formed in the vicinity of the end faces of the upper and lower sliding portions 322 of the lens barrier 332 (only the upper portion is shown in views of circumstances of the drawings) so as to protrude perpendicular to the surface of the sliding portions 322. In this case, the protrusions 342 are formed on the sliding portions 322 of the lens barrier 332 by pressing. Alternatively, the protrusions 342 are arranged on the sliding portions 322 by adhesion. According to the present embodiment, the protrusions 342 can also be arranged perpendicular to the surfaces of each sliding portion 322 in opposite directions in the same way as the foregoing embodiment described with reference to FIGS. 17 to 20.

[0139] The above fourth, fifth, and sixth embodiments have been described with the case where the protrusions 324, 340, 341, and 342 are formed in an to be substantially almost hemisphere-shaped. The shape is not limited to this case. In addition to this, various shapes such as polygons can be used.

[0140] Furthermore, the above embodiments have been described with the case where the round projections 325 are formed at the end face of each of the sliding portions 322 of the lens barrier 332 and the round projections 325 are slid on the bottom surface of each of the rails 311. The arrangement is not limited to this case. An arrangement having no round projection 325 can also be realized.

[0141] The above embodiments have been described with the case where the present invention is applied to the case component which is composed of the front cover 330 and the front mold 331, the front mold 331 being attached to the inner surface of the front cover 330. The present invention is not limited to the case component and other arrangements can be realized.

[0142] Accordingly, the present invention is not limited to the above fourth to sixth embodiments. In addition to these, various modifications are possible without departing from the spirit of the invention in embodying stages. Further, since the above embodiments include various stages of the invention, various inventions may be obtained by the appropriate combinations of the disclosed components.

[0143] For example, if some components are eliminated from all the components disclosed in the above embodiments, the arrangement excluding the eliminated components may be included in the present invention so long as the disadvantages, described in the paragraph regarding the problems that the present invention is to solve, can be overcome and advantages, which will be described in a paragraph regarding advantages of the invention, are obtained.

[0144] As described in detail, according to the foregoing fourth, fifth, and sixth embodiments, it is possible to provide a camera with a lens barrier which can be easily and simply manufactured with high quality without performing edge processing.

[0145]FIG. 23 is a perspective view of a camera having a lens barrier (hereinbelow, referred to as a barrier) according to a seventh embodiment of the present invention, the barrier being opened. FIG. 24 is an exploded perspective view of the camera from which the barrier is detached and which is in a photographable mode. FIG. 25 is a perspective view of the barrier to be attached to the camera as viewed from the inside and in the direction opposite to the direction DA of FIG. 23. FIGS. 26 to 28 are front views showing the opening and closing mode of the barrier as viewed from the direction DA in FIG. 23. FIG. 26 shows the barrier opening mode. FIG. 27 shows the barrier semi-opening mode. FIG. 28 shows the barrier closing mode.

[0146] In the following description, it is assumed that a subject side of the camera is set to a front side and an image formation side is set to a rear side. It is also assumed that the direction of movement of the barrier toward the closed position is set to the direction SA and the direction of movement toward the open position is set to the direction SB.

[0147] According to the present embodiment, as shown in FIG. 23, the barrier-attached camera comprises a barrier 402 capable of moving between a closed position P2A (FIG. 28), where the front surface of a photographic lens in a stored position on the front surface of a camera body 01 401 is covered, and an open position P2B (FIG. 26), where the front surface of the photographic lens in a photographing position is exposed, through a semi-open position P2C (FIG. 27) where the barrier is locked.

[0148] A photographic lens barrel (hereinbelow, referred to as a lens barrel) 403 is driven forward and backward between a collapsed position serving as a non-photographable position and the photographing position serving as a photographable position, together with the opening and closing operations of the barrier 402 operating under the control of the lens barrel.

[0149] The path of movement of the photographic lens barrel 403 between the photographing position and the stored position is set to a lens movement path. The path of movement of the barrier 402 between the closed position and the open position is set to a barrier movement path.

[0150] The barrier movement path intersects the lens movement path. When the lens barrel 403 is located in the stored position, the lens barrel 403 is deviated from the barrier movement path. When the photographic lens barrel 403 is located in the photographing position, the lens barrel 403 is positioned on the barrier movement path. In other words, when the barrier 402 is located in the open position, the barrier 402 is deviated from the lens movement path of the photographic lens barrel 403. When the barrier 402 is located in the closed position, the barrier 402 is positioned on the lens movement path of the photographic lens barrel 403.

[0151] In the camera according to the present embodiment, on the upper and lower portions of the front surface of the camera body 401 also serving as an exterior part as shown in FIGS. 23 and 24, guide grooves 401a and 401b for slidably supporting the barrier 402 are formed in parallel to each other so as to extend in the lateral direction.

[0152] The lens barrel 403 is arranged at the center of the front surface of the camera body 401. The lens barrel 403 is freely movable forward and backward along an optical axis O. A flash window 404, a finder window 405, a distance-measurement receiving window 406, a distance-measurement projecting window 408, a photometric window 407, and a self-timer indication window 409 are arranged at the upper portion of the camera above lens barrel 403. When the barrier 402 is located in the closed position P2A (FIG. 28), the received lens barrel and the windows from the distance-measurement receiving window 406 to the self-timer indication window 409 are completely covered.

[0153] A release button 410 for operating a release switch 410 a (refer to FIG. 35) is disposed on the upper surface of the camera body 401.

[0154] As shown in FIG. 24, a locking shaft 418 of a locking member is arranged on the left of the lens barrel 403 on the front surface of the camera body 401, the distal end of the locking shaft 418 being retractable. A barrier detection switch 401 c comprising contacts 401 d and 401 e to detect the opening or closing state of the barrier 402 is arranged below the locking shaft 418. A small hole 401 h is formed on the upper portion of the front surface of the camera body 401. A click spring 401 n and a click ball 401 m which perform the click-stop operation to the barrier 402 are fitted in the small hole 401 h.

[0155] As shown in FIG. 25, in the barrier 402, engaging guides 02 a 402 a and 02 b 402 b are formed at the upper and lower flanged edges thereof. An engagement hole 402 c and a protrusion 402 d are arranged on an inner surface 402 e in the vicinity of the end face in the closing direction of the barrier 402 f. Two click recesses 402 i and 402 j are formed on the inner surface of the upper flanged edge.

[0156] The guides 402 a and 402 b are freely slidably fitted in the guide grooves 401 a and 401 b of the camera body 401, respectively. The protrusion 402 d functions to press the contact 401 e of the barrier detection switch 401 c arranged on the camera body 401.

[0157] When the barrier 402 is in the open position P2B, the protrusion 402 d presses the contact 401 e and allows the contact 401 e to come into contact with the contact 401 d, thus turning the barrier detection switch 401 c on. Due to an ON signal of the switch 401 c, projecting the lens barrel 403 to the photographable position is started. When the barrier 402 is moved from the open position P2B to the semi-open position P2C, the contact 401 e is released to turn the barrier detection switch 401 c off (refer to FIGS. 27 and 32). Due to an OFF signal of the switch 401 c, retracting the lens barrel 403 is started. The barrier detection switch 401 c is always covered with the barrier 402 and is never exposed irrespective of whether the barrier 402 is open or closed.

[0158] The click ball 401 m, fitted in the small hole 401 h on the upper portion of the camera body 401, falls into the click recess 402 i or 402 j and clicks, thus stopping the barrier 402 at a predetermined position. In other words, when the ball 401 m is fitted into the click recess 402 i, the barrier 402 is click-held at the open position P2B. When the ball 401 m is fitted into the click recess 402 j, the barrier 402 is click-held at the closed position P2A.

[0159] The engagement hole 402 c is not a through-hole and has a bottom. The end of the locking shaft 418 projected from the camera body 401 can be fitted into the engagement hole 402 c. In the state in which the lens barrel 403 is in the photographing state, when the barrier 402 is slightly moved form the open position P2B in the direction SA, the distal end of the locking shaft 418 projected and pressed is fitted into the engagement hole 402 c. The position of the barrier 402 where the locking shaft 418 is fitted into the engagement hole 402 c is the semi-open position P2C. The locking shaft 418 inhibits the barrier 402 from further moving in the direction SA, thus preventing the end face 402 f of the barrier 402 from coming into contact with the periphery of the lens barrel 403.

[0160] The driving mechanism of the lens barrel 403 and the locking mechanism of the locking shaft 418 and surroundings will now be described in detail with reference to FIGS. 29 and 30. FIG. 29 is an exploded perspective view of the locking shaft, the lens barrel, and surroundings. FIG. 30 is a longitudinal sectional view of the camera in the respective operating states.

[0161] The lens barrel 403 comprises a zoom frame 403 f and a movable frame 403 a for movably holding the zoom ring 403 f.

[0162] The lens barrel 403 is fitted in an opening 401 j of the camera body 401 and is freely slidably supported along a guide shaft 415, which is supported by the camera body 401 and is parallel to the photographic-lens optical axis O. The lens barrel 403 is driven forward and backward by a feed screw 413 arranged in parallel to with the guide shaft 415. When the lens barrel 403 is retracted to the stored position in the camera body 401, a flange 403 b of the lens barrel 403 comes into contact with a protrusion 422 a of an aperture member 422 fixed to the camera body 401 upon collapsing the lens barrel. A pressure plate 423 and a pressure-plate spring 424 are disposed between the aperture member 422 and a rear cover 401 k (FIG. 30).

[0163] The feed screw 413 is fitted into a screw hole 403 c formed on the flange 403 b of the movable frame 403 a so as to be rotatably supported between the aperture member 422 and the camera body 401. A gear 414 to be engaged with a pinion 412 of a drive motor 411 is fixed to one end of the feed screw 413. The guide shaft 415 is supported between the aperture member 422 and the camera body 401 and is slidably fitted in a guide hole 403 d of the movable frame 403 a. Accordingly, when the drive motor 411 rotates, the feed screw 413 rotates, so that the movable frame 403 a of the lens barrel 403 is driven forward or backward along the guide shaft 415. A slit plate 416 is fixed to an output shaft of the drive motor 411. A photo-interrupter 417 detects the amount of rotation of the slit plate 416. An output signal of the photo-interrupter 417 is supplied to a CPU 432, which will be described later (see FIG. 35/13).

[0164] A shaft supporting base 403 h for slidably supporting the locking shaft 418 and a pressure spring 403 g comprising a plate spring for pressing and driving the locking shaft 418 are arranged on the side of the movable frame 403 a.

[0165] The locking shaft 418 is a locking member comprising a long stick-like member as shown in FIGS. 29 and 30. The locking shaft 418 is freely slidably supported in parallel to the optical axis O by a supporting hole 403 i of the shaft supporting base 403 h on the movable frame 403 a and a side supporting hole 401 i of the camera body 401. A stopper 418 b is attached to the locking shaft 418. The stopper 418 b is fitted in a groove 418 a arranged at a predetermined position forward from the shaft supporting base 403 h. A return spring 419 serving as a pressing member comprising a compression spring is arranged between the stopper 418 b of the locking shaft 418 and the supporting hole 401 i of the camera body 401. The return spring 419 surrounds shaft 418 and presses the locking shaft 418 backward (in the direction in which the locking shaft 418 is not engaged with, i.e. is separated from, the barrier 402).

[0166] The distal end of the pressure spring 403 g arranged on the movable frame 403 a comes into contact with the stopper 418 b of the locking shaft 418 depending on the position of the movable frame 403 a which is projected or retracted. The contact permits the locking shaft 418 to move forward. The control pressing force of the pressure spring 403 g is set to be larger than the pressing force of the return spring 419 in the predetermined relative positioning range between the movable frame 403 a and the locking shaft 418.

[0167] A slide contact 420 comprising a contact 420 a and a common contact 420 b is attached on the lower surface of the shaft supporting base 403 h. The slide contact 420 moves along the optical axis 0 with the forward or backward movement of the movable frame 403 a. A lens-barrel-position detection switch board 421 to be come brought into contact with the slide contact 420 is arranged on the bottom of the camera body 401 under the slide contact 420.

[0168] The lens-barrel-position detection switch board 421 is a board constituting a collapse switch (collapsed-position detection switch) 434 a and a photographing-position detection switch 434b shown in FIG. 35. The switch board 421 has a lens-barrel stored-position detection pattern 421 a, a lens-barrel photographing-position detection pattern patterns 421 b, and a common pattern 421 c. The contact 420 a selectively comes into contact with the pattern patterns 421 a and 421 b. The common contact 420 b comes into contact with the common pattern 421 c. When the lens barrel 403 is in the stored mode, the contact 420 a comes into contact with the pattern 421 a. When the lens barrel 403 is in the photographable position, the contact 420 a comes into contact with the pattern 421 b. Output signals generated by the contacts are supplied as an output signal of the collapsed-position detection switch 434 a and an output signal of the photographing-position detection switch 434 b of the lens barrel to a CPU 432 (FIG. 35). The switches 434 a and 434 b will be described later.

[0169] The projecting and retracting operations of the lens barrel interlocked with the opening and closing operations of the barrier in the barrier-attached camera with the above-mentioned structure according to the present embodiment will now be described with reference to FIGS. 26 to 34.

[0170] FIGS. 30 to 34 show sectional views of the barrier and the lens barrel in the respective operating states, the views being taken along the section lines line VII-VII 30-30 through (34)-(34) of FIG. 23. FIG. 30 shows a state in which the barrier is in the closed position and the lens barrel is retracted in the stored position. FIG. 31 shows a state in which the barrier is in the open position and the lens barrel is in the photographing position. FIG. 32 shows a state in which the barrier is in the semi-open position and the lens barrel is in the photographing position. FIG. 33 shows a state in which the barrier is in the semi-open position and the lens barrel is being retracted to the stored position. FIG. 34 shows a state in which the barrier is in the semi-open position and the lens barrel is retracted in the stored position.

[0171] As shown in FIGS. 28 and 30, when the barrier 402 is in the closed position P2A and the lens barrel 403 is retracted in the collapsed position, the return spring 419 presses the locking shaft 418 in a backward direction, so that the locking shaft 418 comes into contact with the aperture member 402 422. In this state, the distal end of the locking shaft 418 is received within the supporting hole 401i of the camera body 401. Accordingly, the barrier 402 is openable.

[0172] As shown in FIGS. 26 and 31, when the barrier 402 is in the open position P2B and the lens barrel 403 is projected to the photographable position, the pressure spring 403 g presses the locking shaft 418 against the pressing force of the return spring 419. Thus, the distal end of the locking shaft 418 comes into contact with the inner surface of the barrier 402.

[0173] In the state in which the lens barrel is in the photographing position, when the barrier 402 is slightly slid from the open position P2B in the direction SA, namely, the barrier 402 is moved from the state shown in FIG. 31 to the semi-open position P2C shown in FIG. 32, the barrier detection switch 401 c is released from the pressure by the barrier protrusion 402 d. An OFF signal of the switch 401 is output to the CPU 32 (refer to FIG. 35). Due to the output, the retracting operation of the lens barrel 03 403 to the stored position is started.

[0174] At this time, the distal end of the locking shaft 418 is fitted into the engagement hole 402 c of the barrier 402 by the pressing force of the pressure spring 403g and the barrier 402 is locked at the semi-open position P2C, so that the barrier 402 cannot further move in the direction SA. Consequently, the distal end face 402 f (see FIG. 25) of the barrier 402 never comes into contact with the periphery of the lens barrel 403 located at the photographing position or projected from the camera body 401, thus protecting the lens barrel 403. Simultaneously, overload is not applied to the drive motor 411 and the lens barrel is normally retracted.

[0175] Following the state shown in FIG. 33, the lens barrel 403 is retracted to the collapsed position shown in FIG. 34. For a period during which the lens barrel 403 is being retracted to the collapsed position, the locking shaft 418 is moved to the collapsed position together with the lens barrel 403 in association with the retraction of the pressure spring 403 g until the lens barrel 403 reaches a predetermined position. However, after the rear end face of the locking shaft 418 comes into contact with the aperture member 422, the pressure spring 403 g is moved away from the stopper 418 b of the locking shaft 418, thus releasing the interlocking operation. In this state, the lens barrel 403 is already stored in the camera body. The distal end of the locking shaft 418 is stored within the supporting hole 401 i of the camera body 401, thus releasing the lock of the barrier 402.

[0176] During the retracting operation of the lens barrel 403 to the collapsed position, if the operating force is continuously applied to the barrier 402 in the direction SA, a frictional holding power is generated in the direction perpendicular to the locking shaft 418 by the engagement hole 402 c of the barrier 402 and the frictional holding power acts on the distal end of the locking shaft 418 as shown in FIGS. 33 and 34. Consequently, the distal end of the locking shaft 418 is held in the engagement hole 402 c of the barrier 402 while being engaged therewith. Thus, the barrier 402 is held as it is locked. Therefore, there is no adverse effect on the retracting operation of the lens barrel 403 to the collapsed position.

[0177] As mentioned above, the operating force applied to the barrier 402 in the closing direction is continuously held and as a result functions as locking-state holding means, due to the mechanism of the contact between the periphery of the distal end of the locking shaft 418 and the inner surface of the engagement hole 402 c of the barrier 402. In other words, the locking member moves together with the photographic lens barrel for a period during which the photographic lens barrel is moving to the photographable position. While the photographic lens barrel is moving to the non-photographable position, the interlocking relationship therebetween can be disconnected.

[0178] When the lens barrel 403 is retracted in the collapsed position and the operating force applied to the barrier 402 in the direction SA is eliminated, the engagement between the distal end of the locking shaft 418 and the engagement hole 402 c of the barrier 402 is released as mentioned above, so that the pressing force of the return spring 418 moves the locking shaft 418 to a position where the locking shaft 418 does not project from the camera body 401. Thus, the barrier 402 can move to the closed position P2A.

[0179] In the state in which the lens barrel 403 is in the collapsed position as shown in FIG. 30, when the barrier 402 is moved in the direction SB up to the open position P2B, the barrier detection switch 401c is turned on and an output signal of the switch 401 c is supplied to the CPU 432. Thus, projecting the lens barrel 403 to the photographing position is started.

[0180] For a period during which the lens barrel 403 is being projected to the photographable position, if the lens barrel 403 is projected beyond a predetermined position, the pressure spring 403 g of the lens barrel 403 comes into contact with the stopper 418 b of the locking shaft 418. After that, the locking shaft 418 is pressed by the pressure spring 403 g against the pressing force of the return spring 419 and is moved forward together with the lens barrel 403. As the lens barrel 403 projects from the camera body, the locking shaft 418 is pressed such that the shaft also can project from the camera body. The lens barrel 403 reaches the photographing position and the distal end of the locking shaft 418 comes into contact with the inside of the barrier 402 as shown in FIG. 31.

[0181] In the state in which the lens barrel 403 is in the photographing position as shown in FIG. 31, when the barrier 402 is moved in the direction SA, the distal end of the locking shaft 418 is fitted into the engagement hole 402 c of the barrier 402 by the pressing force of the pressure spring 403 g as mentioned above. Thus, the barrier 402 is locked at the semi-open position P2C. Since the barrier 402 cannot further move in the direction SA, the interference between the barrier 402 and the lens barrel 403 can be avoided. When this state is held, the OFF signal of the barrier detection switch 401 c is output as mentioned above, thus starting the retraction of the lens barrel 403 to the collapsed position.

[0182] The arrangement of a lens-barrel control unit serving as driving control means according to the present embodiment and the primary electric control circuits surrounding the respective detection switches in the camera will now be described using an electric circuit diagram of FIG. 35.

[0183] The camera according to the present embodiment is driven by a battery 431 serving as a power supply. The CPU 432 functions as control means for controlling the entire camera. A motor driver 433 is a part of driving means and is controlled by the CPU 432. The motor driver 433 drives the drive motor 411 to project or retract the lens barrel 403.

[0184] The CPU 432 receives an output signal of the stored-mode detection switch (collapse switch) 434 a and an output signal of the photographing-position detection switch 434 b, thus detecting the projecting or retracting state of the lens barrel 403, these switches being built in the camera body. The CPU 432 also receives an output signal of the barrier detection switch 401 c to detect the release of the barrier 402. In addition, the CPU 432 receives an output signal of the release switch 410 a which is operated by the release button 410 to start the sequence for photographing.

[0185] The control operation of a photographing process including the barrier opening and closing operations will now be described using a flowchart of FIG. 36. FIG. 34 is a general flowchart of the photographing process including the control operation of the lens barrel 403 upon opening and closing the barrier in the camera according to the present embodiment.

[0186] When the barrier 402 is moved from the closed position of the barrier 2 to the open position P2B by the a manual operation, the barrier detection switch 401 c is turned on. In other words, the contact 401 d comes into contact with the contact 401 e, thus starting the photographing process of FIG. 36 through the CPU 432.

[0187] In step S1, the CPU 432 transmits a driving signal to the motor driver 433, thus projecting the lens barrel 403, which is collapsed in the camera, toward the photographing position (photographing standby position) through the drive motor 411.

[0188] In step S2, on the basis of the output signal of the photographing-position detection switch 434 b, the CPU 432 checks whether the lens barrel 403 reaches the photographing position (lens initial position), for example, a zoom wide end position. When it is detected that the lens barrel 403 reaches the photographing position, in step S3, the drive motor 411 is turned off to stop the projection of the lens barrel 403.

[0189] After that, the process proceeds to step S4. Whether the release button 410 is operated is checked using the release switch 410 a. When the switch 410 a is turned on, the process proceeds to step S5. The CPU 432 executes the sequence of the photographing process.

[0190] In the check in step S4, when the turn-off of the release switch 410a is detected, the process skips to step S6. Whether the barrier detection switch 401 c of the barrier 402 is turned on or off is checked. When the turn-on of the barrier detection switch 401c is detected, namely, when the barrier 402 is moved in the closing direction by the manual operation, the process proceeds to step S7. Thus, the lens barrel 403 is driven in the retracting direction.

[0191] In step S8, on the basis of the output signal of the stored-mode detection switch 434a, the CPU 432 checks whether the lens barrel 403 is retracted in the stored (i.e. collapsed) position. When it is determined that the lens barrel 403 reaches the stored position, the process proceeds to step S9. Driving the lens barrel 403 is stopped and the present processing routine is finished.

[0192] The photo-interrupter 417 in the circuit of FIG. 35 is used for a precise positioning control and the like at the photographing position and the collapsed position of the lens barrel. Since the arrangement is not inevitably required, the detailed description thereof is omitted.

[0193] In the above-mentioned barrier-attached camera according to the seventh embodiment, the mechanism for locking the barrier 402 is remarkably simple and the number of components is small. While the lens barrel 403 is being retracted to the collapsed position, even if the barrier 402 is pressed in the closing direction, the locking shaft 418 is fitted into the engagement hole 402 c of the barrier 402 to lock the barrier at the barrier semi-open position P2C. Thus, the interference with the lens barrel 403 is surely positively prevented.

[0194] During the retracting operation of the lens barrel, if the pressing force is not applied to the barrier 402, the return spring 419 returns the locking shaft 418 as it is to an unlocking position, namely, a position where the locking shaft 418 is not projected from the supporting hole 401 i of the camera body 401. However, when the locking shaft 418 is held to be pressed in the direction SA by the barrier 402, the locking shaft 418 is not retracted and the pressure spring 403 g is retracted together with the lens barrel 403. Therefore, the driving system of the lens barrel 403 is driven in the normal retracting state without overload.

[0195] As mentioned above, according to the seventh embodiment, in the camera having the barrier which is movable between the open position where the photographic lens is exposed and the closed position where the photographic lens is covered, even if the barrier is pressed in the closing direction during the retracting operation of the lens barrel to the stored position, the barrier is locked. Accordingly, the barrier never comes into contact with the lens barrel and overload is not applied to the lens-barrel driving means. The structure of the mechanism for locking the barrier is remarkably simple, thus resulting in a reduction in the cost. 

What is claimed is:
 1. A method for manufacturing a camera exterior part comprising an exterior member made of a metal and an inner frame member made of a resin, the inner frame member being integrally fixedly attached to the inner surface of the exterior member, the method comprising the steps of: forming the inner frame member using a resin by injection molding so as to have in one piece a reinforcing portion for preventing deformation; applying an adhesive to the one of an inner surface of the metallic exterior member and an engaging surface of the inner frame member to fix the inner frame member having the reinforcing portion in for as one piece to with the inner surface of the exterior member; and cutting and removing the reinforcing portion of the inner frame member after the completion of the fixing with the adhesive.
 2. The method according to claim 1, wherein the reinforcing portion also functions as a runner for supplying the resin in the step of injection molding.
 3. The method according to claim 1, wherein the reinforcing portion of the inner frame member is formed as a substantially rectangular frame having in formed as one piece with a substantially cross-shaped reinforcing rib.
 4. The method according to claim 2, wherein the reinforcing portion of the inner frame member is formed as a substantially rectangular frame having joined with a substantially cross-shaped reinforcing rib in as a one-piece structure.
 5. The method according to claim 1, wherein the reinforcing portion is cut and removed in a after the step of fixing the exterior part to a camera body.
 6. The method according to claim 2, wherein the reinforcing portion is cut and removed in a after the step of fixing the exterior part to a camera body.
 7. The method according to claim 3, wherein the reinforcing rib is cut and removed in a after the step of fixing the exterior part to a camera body.
 8. A camera exterior part comprising: an inner frame member which is formed so as to have a reinforcing portion for preventing deformation in which is formed as one piece with the inner frame member and which is formed using a resin by injection molding; and fixing means for applying an adhesive to one of the inner surface of the exterior member made of a metal and said inner frame member, pushing the inner frame member having the reinforcing portion in one piece joined thereto against the inner surface of the exterior member to integrally fix the inner frame member to the exterior member, wherein, after the completion of the fixing by the fixing means, the reinforcing portion of the inner frame member is cut removed.
 9. The camera exterior part according to claim 8, wherein the reinforcing portion includes a rib.
 10. The camera exterior part according to claim 8, wherein the reinforcing portion also functions as a runner for supplying the resin in a step of injection molding.
 11. The camera exterior part according to claim 9, wherein the reinforcing portion also functions as a runner for supplying the resin in a step of injection molding.
 12. The camera exterior part according to claim 8, wherein the reinforcing portion is formed such that the thickness is substantially uniformed uniform.
 13. The camera exterior part according to claim 8, wherein a separation pattern to realize facilitate cutting in a predetermined position is formed in the inner frame member including the reinforcing portion.
 14. The camera exterior part according to claim 12, wherein a separation pattern to realize facilitate cutting in a predetermined position is formed in the inner frame member including the reinforcing portion.
 15. A camera exterior part comprising: an exterior member made of a metal; and an inner frame member which is attached to the inner surface of the exterior member by adhesion, which has in one piece a an integral reinforcing portion for preventing deformation, and which is formed using a resin by injection molding, the reinforcing portion being removed after the completion of the attachment.
 16. A camera having a lens barrier which is movably disposed at the a front of a camera body case made of a metal and which can be moved to a closed position, where the front surface of a photographic lens is covered, and an open position, where the front surface of the photographic lens is exposed, the camera comprising: the lens barrier formed by working a metal plate; guide rails which are arranged in the camera body case and are in contact with the lens barrier to slidably guide the lens barrier; and protrusions formed on the a surface of the lens barrier in the vicinity of the worked end faces of the lens barrier perpendicular to the surface thereof, the protrusions being in contact with the surfaces of the respective guide rails to slide the lens barrier.
 17. The camera according to claim 16, wherein the protrusions of the lens barrier are formed so as to protrude higher outwardly further than burrs extending perpendicular to the surface of the lens barrier in order to prevent the burrs from coming into contact with the guide rails, the burrs being generated at the end faces of the lens barrier perpendicular to the surface of the lens barrier by said working.
 18. The camera according to claim 17, wherein the protrusions are made of a resin.
 19. The camera according to claim 17, wherein the protrusions are substantially hemispherical in shape.
 20. The camera according to claim 18, wherein the protrusions are substantially hemispherical in shape.
 21. The camera according to claim 18, wherein the protrusions protrude on both of the opposing surfaces of the lens barrier perpendicular to the surfaces thereof, the number of protrusions being at least two.
 22. A camera comprising: a lens barrier which is movable to a closed position, where the a front surface of the photographic lens is covered, and to an open position, where the front surface of the photographic lens is exposed, the lens barrier being formed by working a metal plate and having protrusions on the a surface thereof in the vicinity of the worked end faces, the protrusions protruding perpendicular to the surface of the lens barrier; and guide rails to which the protrusions of the lens barrier are slidably fitted in order to slidably guide the lens barrier to the closed position, where the photographic lens is covered, and to the open position, where the front surface of the photographic lens is exposed.
 23. The camera according to claim 22, wherein the lens barrier is supported so as to be movable substantially perpendicular to the an optical axis of the photographic lens.
 24. The camera according to claim 23, wherein the lens barrier is worked by press work and the protrusions of the lens barrier are formed perpendicular to the surface of the lens barrier so as to protrude higher outwardly by an amount greater than burrs in order to prevent the burrs from coming into contact with the guide rails, the burrs being generated at the end faces of the lens barrier perpendicular to the surface thereof upon cutting in the press work.
 25. The camera according to claim 23, wherein the protrusions are independently formed using of a resin and are attached on the surfaces of the ends of the lens barrier.
 26. The camera according to claim 24, wherein the protrusions are independently formed using of a resin and are attached on the surfaces of the ends of the lens barrier.
 27. The camera according to claim 23, wherein the camera body case is formed by working a metal plate and the guide rails are integrated with the camera body case.
 28. A camera comprising: a printed wiring board including a pattern portion having a ground potential; a conductive spring in which at least one end serves as an end turn; and a conductive member having conductivity at least on the a surface which the other end of the spring is pressed against, wherein the spring holds an exposed portion of the pattern portion with the end turn and presses the an other end thereof against the conductive member to realize provide an electrical connection, thus reducing bringing a the potential of the conductive member to the ground potential.
 29. The camera according to claim 28, wherein the spring includes a coil spring wound conically to provide a conical shape and the pattern portion is held by the end turn formed at the major-diameter end of the coil spring.
 30. The camera according to claim 29, wherein the spring is formed such that when the spring is pressed against the conductive member, the spring is compressed without overlapping respective adjacent winding segments in the a radial direction.
 31. A camera comprising: a printed wiring board having a pattern portion in which a ground pattern is exposed; a conductive spring in which at least one end is tightly wound; an exterior member made of a metal; and a contact portion which is provided for the exterior member and is come brought into contact with the other end of the spring, wherein the spring holds the pattern portion with the tightly-wound end and the electrical connection between the printed wiring board and the exterior member is realized obtained through the spring.
 32. The camera according to claim 31, wherein the exterior member is made of anodized aluminum, and the contact portion is an area where the anodized aluminum is removed to expose aluminum.
 33. The camera according to claim 31, further comprising: an insulator arranged on the exterior member, wherein the insulator has an opening so as to expose the metallic exterior member in to provide the a contact portion.
 34. A camera comprising: a photographic lens barrel having a lens movement path between a photographable position and a non-photographable position where it is impossible to photograph; a barrier having movable along a barrier movement path between a closed position, where the barrier covers the photographic lens barrel, and an open position, where the barrier is withdrawn from the a front surface of the photographic lens barrel, the barrier movement path intersecting the lens movement path; and a locking member which is provided for a camera body, which is engaged with engages the barrier to inhibit the movement of the barrier when the barrier is moved from the open position to the closed position in a state in which the photographic lens barrel is located in the barrier movement path of the barrier, and which continues the engagement so that an operating force applied to the barrier in the closing direction does not affect the movement of the photographic lens barrel when the operating force is continuously applied to the barrier even in a state in which the photographic lens barrel is deviated from the barrier movement path of the barrier.
 35. The camera according to claim 34, further comprising: a pressing member for applying a force to urge pressing the locking member in to move in a the other direction away from the direction in which the locking member engages with the barrier, wherein when the photographic lens barrel is located on at the photographable position, the locking member can engage with the barrier against by overcoming the force of the pressing member, and when the photographic lens barrel is positioned on the non-photographable position, the locking member is prevented from engaging cannot engage with the barrier by due to the pressing urging member force.
 36. The camera according to claim 34, wherein the locking member is a long stick-like member which is movably arranged to move along a path parallel to the an optical axis of the photographic lens barrel.
 37. The camera according to claim 35, wherein the locking member is a long stick-like member which is movably arranged in to move along a path parallel to the an optical axis of the photographic lens barrel.
 38. The camera according to claim 34, wherein while the photographic lens barrel is moving to the photographable position, the locking member interlockingly moves with the photographic lens barrel, and while the photographic lens barrel is moving to the non-photographable position, the locking member interrupts the interlocking relation.
 39. The camera according to claim 35, wherein while the photographic lens barrel is moving to the photographable position, the locking member interlockingly moves with the photographic lens barrel, and while the photographic lens barrel is moving to the non-photographable position, the locking member interrupts the interlocking relation. 